Aissani Siham

Specialty: 
Télécommunicationsj
Department: 
Faculty: 
Campus: Ancien Campus
  • aissani.siham@univ-guelma.dz
  • aissanisiham24@gmail.com
Doctoral advisor: 
Google Scholar Link: 
Rersearchgate Link: 
ORCID: 

Thesis title

Doctoral thesis title: 
Modeling and control of a renewable energy conversion system using bio-inspired optimization

Thesis title (Ar)

Doctoral thesis title (Ar): 
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Thesis title (Fr)

Doctoral thesis title (Fr): 
Modélisation et commande d’un système de conversion d’énergie renouvelable en utilisant l’optimisation bio-inspirée

keywords

Keywords: 
GPV panel ,Small-signal model ,P&O-MPPT control strategy ,Voltage PID controller

keywords (Ar)

Key words (Ar): 
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keywords (Fr)

Key words (Fr): 
Panneau GPV, Modèle faible signal, Stratégie de contrôle P&O-MPPT, Régulateur PID de tension.

Abstract

Abstract: 

This paper proposes a detailed modeling based on the small signal principle, which is derived from the graphical interface of Matlab®/ Simulink. This modeling is applied to describe the real behavior of a solar system including a solar panel feeding a resistive load through a DC-DC converter. The aim is to design, through the proposed model, a PID controller that must guarantee, at the same time, a good efficiency factor (EF) and a good respect of the performances already imposed by a technical requirement. These objectives are achieved by operating the PV panel at its maximum power while minimizing the ripple effects that occur at the output of the DC-DC boost converter. With all of these considerations in mind, a new Maximum Power Point Tracking (MPPT) scheme with non-oscillating Maximum Power Point Tracking (MPP) is employed, which significantly reduces the effects of these ripples, resulting in a smooth and stable steady-state response from the solar system. Numerous simulation tests are performed to evaluate and compare the performance and robustness of the new MPPT scheme, produced via the combination of the Perturb and Observe (P&O) algorithm with the PID controller, which is previously synthesized through the frequency identification approach based on the loop shaping method. Simpower's library of systems is used to evaluate the solar system under different metrological conditions. The simulation and the comparison findings prove that the new proposed strategy provides interesting results in terms of nominal performance and robust stability, as it has a better tracking accuracy and a better response time to identify and track MPP with the least oscillation in steady state.

Abstract (Ar)

Abstract (Ar): 

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Abstract (Fr)

Abstract (Fr): 

Ce document propose une modélisation détaillée basée sur le principe des faibles signaux, qui est dérivée de l'interface graphique de Matlab®/ Simulink. Cette modélisation est appliquée pour décrire le comportement réel d'un système solaire comprenant un panneau photovoltaïque alimentant une charge résistive à travers un convertisseur DC-DC. L'objectif est de concevoir, à travers ce modèle, un contrôleur PID qui doit garantir, à la fois, un bon facteur de rendement (EF) et un bon respect des performances exigées préalablement par un cahier des charges. Ces objectifs sont atteints en faisant fonctionner le panneau PV à sa puissance maximale tout en minimisant les effets d'ondulation qui se produisent à la sortie du convertisseur DC-DC boost. Avec toutes ces considérations à l'esprit, un nouveau schéma de suivi du point de puissance maximale (MPPT) comportant un suivi non oscillant du point de puissance maximale (MPP) est employé, ce qui réduit considérablement les effets de ces ondulations, entraînant ainsi une réponse en régime permanent lisse et stable du système solaire. De nombreux tests de simulation sont effectués pour évaluer et comparer la performance et la robustesse du nouveau schéma MPPT, produit par la combinaison de l'algorithme Perturb and Observe (P&O) avec le contrôleur PID, qui est préalablement synthétisé par l'approche d'identification fréquentielle fondée sur la méthode de . La bibliothèque de systèmes de Simpower est utilisée pour évaluer le système solaire dans différentes conditions métrologiques. Les résultats de la simulation et ceux de la comparaison prouvent que la nouvelle stratégie proposée fournit des résultats intéressants en termes de performance nominale et de stabilité robuste, car elle a une meilleure précision de suivi et un meilleur temps de réponse pour identifier et suivre la MPP avec le moins d'oscillation en régime permanent.

Scientific publications

Scientific publications : 
  • Aissani, S., Kahla, S., Bechouat, M., Amieur, T., & Sedraoui, M. (2022). A Voltage PID Controller Synthesis Based on a New Small-Signal Linear Model to Enhance the Performance of the Standard P &O Algorithm Employed in Photovoltaic Panels. Arabian Journal for Science and Engineering, 1-16.

Scientific conferences

Scientific conferences: 
  • Aissani, S., Bechouat, M., Azzeddine, M., Toufik, A., Sedraoui, M., & Doghmane, H. (2022, December). Small-Signal Modeling and Voltage PID controller-Synthesis for Cascade Regulation of Renewable Energy Conversion System. In 2022 IEEE 21st international Ccnference on Sciences and Techniques of Automatic Control and Computer Engineering (STA) (pp. 611-616). IEEE.
  • Aissani, S., Bechouat, M., Sedraoui, M., Kahla, S., & Toufik, A.," Synthesis of Voltage PID Controller to Improve INC- MPPT Algorithm for Cascade Regulation of KC200GT Panel-Based Solar System” ," 2nd International Conference on Innovative Academic Studies (ICIAS ' 2023), January 28 - 31, 2023, Konya, Turkey”.
  • Aissani, S., Bechouat, Sedraoui, M., Kahla, S., & Toufik, A, " Robust and accurate photoelectric system model design using the small-signal principle"," 2nd International Conference on Innovative Academic Studies (ICIAS ' 2023), January 28 - 31, 2023, Konya, Turkey”.
  • Aissani, S., Bechouat, M., Sedraoui, M.., Toufik, A., Doghmane, H., & boualleg, A " Extract the transfer function of the Buck converter using PLECS software"; "1st International Conference on Scientific and Academic Research (ICSAR 2022--FREE), on 10-13 December in 2022 at Konya/Turkey”.
  • Taibi, D., Laamayad, D, Sedraoui, M., Aissani, S., & Toufik, A, "Tilt Proportional Integral Derivative (TPID) Controller for a Photovoltaic System with DC-DC Converter "; "1st International Conference on Scientific and Academic Research (ICSAR 2022--FREE), on 10-13 December in 2022 at Konya/Turkey”.
  • Aissani, S., Bechouat,, Kahla, S., Sedraoui, M., & Toufik, A., Guessoum Hann., Azzeddine, M "Current Regulation using PID regulator with P&O-MPPT algorithm for Photovoltaic system”,"National Conference on Electrical Engineering and their Applications(NCEEA 01), November, 15th, 2022, Guelma, Algeria”.
  • Aissani, S., Bechouat, M., Sedraoui, M.., Toufik, A., " An accurate study of the characteristics of the photovoltaic cells of the KC200GT panel and the effect of climatic factors on them using MATLAB software"; “2nd International Conference on Scientific and Academic Research on 14-16 March in 2023 at Konya/Turkey”.
  • Aissani, S., Bechouat, M., Sedraoui, M.., Toufik, A., " Study and Comparative analysis of P&O-PID and FLC-PID maximum power point tracking algorithms for a new solar PV system"; “2nd International Conference on Scientific and Academic Research on 14-16 March in 2023 at Konya/Turkey”.
  • Aissani, S., Bechouat, M., Sedraoui, M.., Khala,S., Toufik, A., & boualleg, A. "Enhanced P&O-MPPT Control Strategy Used in Current Regulation of Solar Systems "; “National Conference on Process Engineering & Renewable Energy NCPERE’2023.  Khemis –Millana, Algeria 3 May 2023”.
  • Aissani, S., Bechouat, M., Sedraoui, M..,AL QUDAMI, D. A. A. H. A., "Design the photovoltaic model from the experimental data and define its parameters by the PSO algorithm"; “1st International Conference on Scientific and Innovative Studies on 18-20 April in 2023 at Konya/Turkey”.
  • Aissani, S., Bechouat, M., Sedraoui, M., &Toufik, A., (2023, May 6-7). "Enhanced Maximum Power Point Tracking Scheme for Photovoltaic System Using Fuzzy Logic. 1st International Conference on Renewable Solutions for Ecosystems: Towards a Sustainable Energy Transition.IEEE".
  •  Aissani, S., Bechouat, M., Sedraoui, M.., AL QUDAMI, D. A. A. H. A., Menasria,A. , Gherbi,S., "Enhanced Maximum Power Point Tracking Based on Combining Fuzzy Logic Control with PID Controller for Solar Systems"; “Fourth International Conference On Technological Advances in Electrical Engineering ICTAEE’23 on May 23-24/2023 at Skikda-Algeria”.
  •  Aissani, S., Bechouat, M., Sedraoui, M.., AL QUDAMI, D. A. A. H. A., Menasria,A. , Gherbi,S., "Parameter-Identification of Small-Signal Model of Solar System Using Graphical User Interface GUI of Matlab Software"; “Fourth International Conference On Technological Advances in Electrical Engineering ICTAEE’23 on May 23-24/2023 at Skikda-Algeria”.
  •  AL QUDAMI, D. A. A. H. A., Redadda,S., Ikni, S. , Aissani, S., Sedraoui, M, "New Windows for UFMC Technique in 5G Systems”; “Fourth International Conference On Technological Advances in Electrical Engineering ICTAEE’23 on May 23-24/2023 at Skikda-Algeria”.